/*========================== begin_copyright_notice ============================

Copyright (C) 2017-2021 Intel Corporation

SPDX-License-Identifier: MIT

============================= end_copyright_notice ===========================*/

#ifndef _IGA_FRONTEND_IRTOSTRING_HPP
#define _IGA_FRONTEND_IRTOSTRING_HPP

#include "../IR/Types.hpp"
#include "../api/iga_bxml_enums.hpp"
#include "../strings.hpp"

#include <ostream>
#include <sstream>
#include <string>

namespace iga {

static inline std::string MakeErrorString(const char *pfx, int t) {
  std::stringstream ss;
  ss << pfx << "::" << fmtHex((uint32_t)t, 8) << "?";
  return ss.str();
}

#define MAKE_CASE(C, S)                                                        \
  case C::S:                                                                   \
    return #C "::" #S
#define MAKE_DEFAULT_CASE(C)                                                   \
  default:                                                                     \
    return MakeErrorString(#C, (int)x)

// e.g. "Platform::GEN11"
std::string ToSymbol(Platform x);

static inline std::string ToSymbol(PredCtrl x) {
  switch (x) {
    MAKE_CASE(PredCtrl, NONE);
    MAKE_CASE(PredCtrl, SEQ);
    MAKE_CASE(PredCtrl, ANYV);
    MAKE_CASE(PredCtrl, ALLV);
    MAKE_CASE(PredCtrl, ANY2H);
    MAKE_CASE(PredCtrl, ALL2H);
    MAKE_CASE(PredCtrl, ANY4H);
    MAKE_CASE(PredCtrl, ALL4H);
    MAKE_CASE(PredCtrl, ANY8H);
    MAKE_CASE(PredCtrl, ALL8H);
    MAKE_CASE(PredCtrl, ANY16H);
    MAKE_CASE(PredCtrl, ALL16H);
    MAKE_CASE(PredCtrl, ANY32H);
    MAKE_CASE(PredCtrl, ALL32H);
    MAKE_CASE(PredCtrl, ANY);
    MAKE_CASE(PredCtrl, ALL);
    MAKE_DEFAULT_CASE(PredCtrl);
  }
}

static inline std::string ToSymbol(Op op) {
  std::stringstream ss;
  ss << "Op::0x" << std::hex << std::uppercase << (int)op;
  return ss.str();
}

static inline std::string ToSymbol(bool x) { return x ? "true" : "false"; }

static inline std::string ToSymbol(BranchCntrl x) {
  switch (x) {
    MAKE_CASE(BranchCntrl, ON);
    MAKE_CASE(BranchCntrl, OFF);
    MAKE_DEFAULT_CASE(BranchCntrl);
  }
}

static inline std::string ToSymbol(ExecSize x) {
  switch (x) {
    MAKE_CASE(ExecSize, SIMD1);
    MAKE_CASE(ExecSize, SIMD2);
    MAKE_CASE(ExecSize, SIMD4);
    MAKE_CASE(ExecSize, SIMD8);
    MAKE_CASE(ExecSize, SIMD16);
    MAKE_CASE(ExecSize, SIMD32);
    MAKE_DEFAULT_CASE(ExecSize);
  }
}

static inline std::string ToSymbol(ChannelOffset x) {
  switch (x) {
    MAKE_CASE(ChannelOffset, M0);
    MAKE_CASE(ChannelOffset, M4);
    MAKE_CASE(ChannelOffset, M8);
    MAKE_CASE(ChannelOffset, M12);
    MAKE_CASE(ChannelOffset, M16);
    MAKE_CASE(ChannelOffset, M20);
    MAKE_CASE(ChannelOffset, M24);
    MAKE_CASE(ChannelOffset, M28);
    MAKE_DEFAULT_CASE(ChannelOffset);
  }
}

static inline std::string ToSymbol(MaskCtrl x) {
  switch (x) {
    MAKE_CASE(MaskCtrl, NORMAL);
    MAKE_CASE(MaskCtrl, NOMASK);
    MAKE_DEFAULT_CASE(MaskCtrl);
  }
}

static inline std::string ToSymbol(SrcModifier x) {
  switch (x) {
    MAKE_CASE(SrcModifier, NONE);
    MAKE_CASE(SrcModifier, ABS);
    MAKE_CASE(SrcModifier, NEG);
    MAKE_CASE(SrcModifier, NEG_ABS);
    MAKE_DEFAULT_CASE(SrcModifier);
  }
}

static inline std::string ToSymbol(DstModifier x) {
  switch (x) {
    MAKE_CASE(DstModifier, NONE);
    MAKE_CASE(DstModifier, SAT);
    MAKE_DEFAULT_CASE(DstModifier);
  }
}

static inline std::string ToSymbol(RegName x) {
  switch (x) {
    MAKE_CASE(RegName, INVALID);
    MAKE_CASE(RegName, ARF_NULL);
    MAKE_CASE(RegName, ARF_A);
    MAKE_CASE(RegName, ARF_ACC);
    MAKE_CASE(RegName, ARF_MME);
    MAKE_CASE(RegName, ARF_F);
    MAKE_CASE(RegName, ARF_CE);
    MAKE_CASE(RegName, ARF_MSG);
    MAKE_CASE(RegName, ARF_SP);
    MAKE_CASE(RegName, ARF_SR);
    MAKE_CASE(RegName, ARF_CR);
    MAKE_CASE(RegName, ARF_N);
    MAKE_CASE(RegName, ARF_IP);
    MAKE_CASE(RegName, ARF_TDR);
    MAKE_CASE(RegName, ARF_TM);
    MAKE_CASE(RegName, ARF_FC);
    MAKE_CASE(RegName, ARF_DBG);
    MAKE_CASE(RegName, GRF_R);
    MAKE_DEFAULT_CASE(RegName);
  }
}

static inline std::string ToSymbol(MathMacroExt x) {
  switch (x) {
    MAKE_CASE(MathMacroExt, INVALID);
    MAKE_CASE(MathMacroExt, MME0);
    MAKE_CASE(MathMacroExt, MME1);
    MAKE_CASE(MathMacroExt, MME2);
    MAKE_CASE(MathMacroExt, MME3);
    MAKE_CASE(MathMacroExt, MME4);
    MAKE_CASE(MathMacroExt, MME5);
    MAKE_CASE(MathMacroExt, MME6);
    MAKE_CASE(MathMacroExt, MME7);
    MAKE_CASE(MathMacroExt, NOMME);
    MAKE_DEFAULT_CASE(MathMacroExt);
  }
}

static inline std::string ToSymbol(Type x) {
  switch (x) {
    MAKE_CASE(Type, INVALID);

    MAKE_CASE(Type, UB);
    MAKE_CASE(Type, B);
    MAKE_CASE(Type, UW);
    MAKE_CASE(Type, W);
    MAKE_CASE(Type, UD);
    MAKE_CASE(Type, D);
    MAKE_CASE(Type, UQ);
    MAKE_CASE(Type, Q);

    MAKE_CASE(Type, HF);
    MAKE_CASE(Type, F);
    MAKE_CASE(Type, DF);
    MAKE_CASE(Type, NF);

    MAKE_CASE(Type, UV);
    MAKE_CASE(Type, V);
    MAKE_CASE(Type, VF);

    MAKE_CASE(Type, U1);
    MAKE_CASE(Type, U2);
    MAKE_CASE(Type, U4);
    MAKE_CASE(Type, S2);
    MAKE_CASE(Type, S4);
    MAKE_CASE(Type, BF);

    MAKE_CASE(Type, BF8);
    MAKE_CASE(Type, HF8);
    MAKE_CASE(Type, QF);
    MAKE_CASE(Type, TF32);
    MAKE_DEFAULT_CASE(Type);
  }
}

static inline std::string ToSymbol(FlagModifier x) {
  switch (x) {
    MAKE_CASE(FlagModifier, NONE);
    MAKE_CASE(FlagModifier, EQ);
    MAKE_CASE(FlagModifier, NE);
    MAKE_CASE(FlagModifier, GT);
    MAKE_CASE(FlagModifier, GE);
    MAKE_CASE(FlagModifier, LT);
    MAKE_CASE(FlagModifier, LE);
    MAKE_CASE(FlagModifier, OV);
    MAKE_CASE(FlagModifier, UN);
    MAKE_CASE(FlagModifier, EO);
    MAKE_DEFAULT_CASE(FlagModifier);
  }
}

static inline std::string ToSymbol(Region x) {
  if (x == Region::INVALID)
    return "Region::INVALID";
  else if (x == Region::SRC010)
    return "Region::SRC010";
  else if (x == Region::SRC110)
    return "Region::SRC110";
  else if (x == Region::SRC221)
    return "Region::SRC221";
  else if (x == Region::SRC441)
    return "Region::SRC441";
  else if (x == Region::SRC881)
    return "Region::SRC881";
  else if (x == Region::SRCFF1)
    return "Region::SRCFF1";
  else if (x == Region::DST1)
    return "Region::DST1";
  else if (x == Region::SRC0X0)
    return "Region::SRC0X0";
  else if (x == Region::SRC1X0)
    return "Region::SRC1X0";
  else if (x == Region::SRC2X1)
    return "Region::SRC2X1";
  else if (x == Region::SRC4X1)
    return "Region::SRC4X1";
  else if (x == Region::SRC8X1)
    return "Region::SRC8X1";
  else if (x == Region::SRCXX0)
    return "Region::SRCXX0";
  else if (x == Region::SRCXX1)
    return "Region::SRCXX1";
  else if (x == Region::SRCXX2)
    return "Region::SRCXX2";
  else {
    std::stringstream ss;
    ss << "{";
    switch (x.getVt()) {
    case Region::Vert::VT_0:
      ss << "Region::Vert::VT_0";
      break;
    case Region::Vert::VT_1:
      ss << "Region::Vert::VT_1";
      break;
    case Region::Vert::VT_2:
      ss << "Region::Vert::VT_2";
      break;
    case Region::Vert::VT_4:
      ss << "Region::Vert::VT_4";
      break;
    case Region::Vert::VT_8:
      ss << "Region::Vert::VT_8";
      break;
    case Region::Vert::VT_16:
      ss << "Region::Vert::VT_16";
      break;
    case Region::Vert::VT_32:
      ss << "Region::Vert::VT_32";
      break;
    case Region::Vert::VT_VxH:
      ss << "Region::Vert::VT_VxH";
      break;
    case Region::Vert::VT_INVALID:
      ss << "Region::Vert::VT_INVALID";
    default:
      ss << x.v << "?";
      break;
    }
    ss << ",";

    switch (x.getWi()) {
    case Region::Width::WI_1:
      ss << "Region::Width::WI_1";
      break;
    case Region::Width::WI_2:
      ss << "Region::Width::WI_2";
      break;
    case Region::Width::WI_4:
      ss << "Region::Width::WI_4";
      break;
    case Region::Width::WI_8:
      ss << "Region::Width::WI_8";
      break;
    case Region::Width::WI_16:
      ss << "Region::Width::WI_16";
      break;
    case Region::Width::WI_INVALID:
      ss << "Region::Width::WI_INVALID";
      break;
    default:
      ss << x.v << "?";
      break;
    }
    ss << ",";

    switch (x.getHz()) {
    case Region::Horz::HZ_0:
      ss << "Region::Horz::HZ_0";
      break;
    case Region::Horz::HZ_1:
      ss << "Region::Horz::HZ_1";
      break;
    case Region::Horz::HZ_2:
      ss << "Region::Horz::HZ_2";
      break;
    case Region::Horz::HZ_4:
      ss << "Region::Horz::HZ_4";
      break;
    case Region::Horz::HZ_INVALID:
      ss << "Region::Horz::HZ_INVALID";
      break;
    default:
      ss << x.v << "?";
      break;
    }
    ss << "}";
    return ss.str();
  }
}

static inline std::string ToSymbol(InstOpt x) {
  switch (x) {
    MAKE_CASE(InstOpt, ACCWREN);
    MAKE_CASE(InstOpt, ATOMIC);
    MAKE_CASE(InstOpt, BREAKPOINT);
    MAKE_CASE(InstOpt, COMPACTED);
    MAKE_CASE(InstOpt, EOT);
    MAKE_CASE(InstOpt, NODDCHK);
    MAKE_CASE(InstOpt, NODDCLR);
    MAKE_CASE(InstOpt, NOPREEMPT);
    MAKE_CASE(InstOpt, NOSRCDEPSET);
    MAKE_CASE(InstOpt, SWITCH);
    MAKE_CASE(InstOpt, SERIALIZE);
    MAKE_DEFAULT_CASE(InstOpt);
  }
}

static inline std::string ToSymbol(const RegRef &x) {
  if (x == REGREF_INVALID) {
    return "RegRef::INVALID";
  } else {
    std::stringstream ss;
    ss << "{";
    ss << x.regNum;
    ss << ",";
    ss << x.subRegNum;
    ss << "}";
    return ss.str();
  }
}

static inline std::string ToSymbol(const SendDesc &x) {
  std::stringstream ss;
  ss << "{";
  ss << (x.isImm() ? "IMM" : "REG32A");
  ss << ",";
  if (x.isImm()) {
    ss << ToSymbol(x.reg);
  } else {
    fmtHex(ss, x.imm);
  }
  ss << "}";
  return ss.str();
}

static inline std::string ToSymbol(CacheOpt x) {

  switch (x) {
    MAKE_CASE(CacheOpt, INVALID);
    MAKE_CASE(CacheOpt, DEFAULT);
    MAKE_CASE(CacheOpt, READINVALIDATE);
    MAKE_CASE(CacheOpt, CACHED);
    MAKE_CASE(CacheOpt, UNCACHED);
    MAKE_CASE(CacheOpt, STREAMING);
    MAKE_CASE(CacheOpt, WRITEBACK);
    MAKE_CASE(CacheOpt, WRITETHROUGH);
    MAKE_CASE(CacheOpt, CONSTCACHED);
    MAKE_DEFAULT_CASE(CacheOpt);
  }
}

static inline std::string ToSyntax(Type ot) {
  switch (ot) {
  case Type::UV:
    return ":uv";
  case Type::UB:
    return ":ub";
  case Type::UW:
    return ":uw";
  case Type::UD:
    return ":ud";
  case Type::UQ:
    return ":uq";

  case Type::V:
    return ":v";
  case Type::B:
    return ":b";
  case Type::W:
    return ":w";
  case Type::D:
    return ":d";
  case Type::Q:
    return ":q";

  case Type::VF:
    return ":vf";
  case Type::F:
    return ":f";
  case Type::NF:
    return ":nf";
  case Type::HF:
    return ":hf";
  case Type::DF:
    return ":df";

  case Type::U1:
    return ":u1";
  case Type::U2:
    return ":u2";
  case Type::U4:
    return ":u4";
  case Type::S2:
    return ":s2";
  case Type::S4:
    return ":s4";
  case Type::BF:
    return ":bf";
  case Type::QF:
    return ":qf";
  case Type::BF8:
    return ":bf8";
  case Type::HF8:
    return ":hf8";
  case Type::TF32:
    return ":tf32";

  case Type::INVALID:
    return ":Type::INVALID";
  default:
    return MakeErrorString("Type", (int)ot);
  }
}

static inline std::string ToSyntax(MaskCtrl mc) {
  return mc == MaskCtrl::NOMASK ? "W" : "";
}

static inline std::string ToSyntax(PredCtrl pc) {
  switch (pc) {
  case PredCtrl::NONE:
    return "";
  case PredCtrl::SEQ:
    return "";
  case PredCtrl::ANYV:
    return ".anyv";
  case PredCtrl::ALLV:
    return ".allv";
  case PredCtrl::ANY2H:
    return ".any2h";
  case PredCtrl::ALL2H:
    return ".all2h";
  case PredCtrl::ANY4H:
    return ".any4h";
  case PredCtrl::ALL4H:
    return ".all4h";
  case PredCtrl::ANY8H:
    return ".any8h";
  case PredCtrl::ALL8H:
    return ".all8h";
  case PredCtrl::ANY16H:
    return ".any16h";
  case PredCtrl::ALL16H:
    return ".all16h";
  case PredCtrl::ANY32H:
    return ".any32h";
  case PredCtrl::ALL32H:
    return ".all32h";
  case PredCtrl::ANY:
    return ".any";
  case PredCtrl::ALL:
    return ".all";
  default:
    return MakeErrorString("PredCtrl", (int)pc);
  }
}

static inline std::string ToSyntax(const Predication &pred) {
  std::stringstream ss;
  ss << (pred.inverse ? "~" : "");
  ss << ToSyntax(pred.function);
  return ss.str();
}

static inline std::string ToSyntax(ExecSize es) {
  switch (es) {
  case ExecSize::SIMD1:
    return "1";
  case ExecSize::SIMD2:
    return "2";
  case ExecSize::SIMD4:
    return "4";
  case ExecSize::SIMD8:
    return "8";
  case ExecSize::SIMD16:
    return "16";
  case ExecSize::SIMD32:
    return "32";
  default:
    return MakeErrorString("ExecSize", (int)es);
  }
}

static inline std::string ToSyntax(ChannelOffset es) {
  switch (es) {
  case ChannelOffset::M0:
    return "M0";
  case ChannelOffset::M4:
    return "M4";
  case ChannelOffset::M8:
    return "M8";
  case ChannelOffset::M12:
    return "M12";
  case ChannelOffset::M16:
    return "M16";
  case ChannelOffset::M20:
    return "M20";
  case ChannelOffset::M24:
    return "M24";
  case ChannelOffset::M28:
    return "M28";
  default:
    return MakeErrorString("ChannelOffset", (int)es);
  }
}

static inline std::string ToSyntax(FlagModifier fm) {
  switch (fm) {
  case FlagModifier::NONE:
    return ""; // 0
  case FlagModifier::EQ:
    return "eq";
  case FlagModifier::NE:
    return "ne";
  case FlagModifier::LT:
    return "lt";
  case FlagModifier::LE:
    return "le";
  case FlagModifier::GE:
    return "ge";
  case FlagModifier::GT:
    return "gt";
  case FlagModifier::OV:
    return "ov"; // 8
  case FlagModifier::UN:
    return "un";
  case FlagModifier::EO:
    return "eo";
  default:
    return MakeErrorString("FlagModifier", (int)fm);
  }
}

static inline bool IsBitwise(Op op) {
  switch (op) {
  case Op::AND:
  case Op::OR:
  case Op::XOR:
  case Op::NOT:
  case Op::BFN:
    // what about these?
    // case Op::CBIT:
    // case Op::LZD:
    return true;
  default:
    return false;
  }
}

static inline std::string ToSyntax(BranchCntrl bc) {
  switch (bc) {
  case BranchCntrl::OFF:
    return "";
  case BranchCntrl::ON:
    return ".b";
  default:
    return MakeErrorString("BranchCntrl", (int)bc);
  }
}

static inline std::string ToSyntax(Op op, SrcModifier sm) {
  switch (sm) {
  case SrcModifier::NONE:
    return "";
  case SrcModifier::ABS:
    return "(abs)";
  case SrcModifier::NEG:
    return IsBitwise(op) ? "~" : "-";
  case SrcModifier::NEG_ABS:
    return "-(abs)";
  default:
    return MakeErrorString("SrcModifier", (int)sm);
  }
}

static inline std::string ToSyntax(RegName regName) {
  switch (regName) {
  case RegName::ARF_NULL:
    return "null"; // null
  case RegName::ARF_A:
    return "a";
  case RegName::ARF_ACC:
    return "acc";
  case RegName::ARF_MME:
    return "mme";
  case RegName::ARF_F:
    return "f";
  case RegName::ARF_CE:
    return "ce";
  case RegName::ARF_MSG:
    return "msg";
  case RegName::ARF_SP:
    return "sp";
  case RegName::ARF_SR:
    return "sr";
  case RegName::ARF_CR:
    return "cr";
  case RegName::ARF_N:
    return "n";
  case RegName::ARF_IP:
    return "ip";
  case RegName::ARF_TDR:
    return "tdr";
  case RegName::ARF_TM:
    return "tm";
  case RegName::ARF_FC:
    return "fc";
  case RegName::ARF_DBG:
    return "dbg";
  case RegName::ARF_S:
    return "s";
  case RegName::GRF_R:
    return "r";
  default:
    return MakeErrorString("RegName", (int)regName);
  }
}

static inline std::string ToSyntax(MathMacroExt MathMacroReg) {
  switch (MathMacroReg) {
  case MathMacroExt::MME0:
    return ".mme0";
  case MathMacroExt::MME1:
    return ".mme1";
  case MathMacroExt::MME2:
    return ".mme2";
  case MathMacroExt::MME3:
    return ".mme3";
  case MathMacroExt::MME4:
    return ".mme4";
  case MathMacroExt::MME5:
    return ".mme5";
  case MathMacroExt::MME6:
    return ".mme6";
  case MathMacroExt::MME7:
    return ".mme7";
  case MathMacroExt::NOMME:
    return ".nomme";
  case MathMacroExt::INVALID:
    return "MathMacroExt::INVALID";
  default:
    return MakeErrorString("MathMacroExt", (int)MathMacroReg);
  }
}

static inline std::string ToSyntax(const Region &rgn) {
  std::stringstream ss;

  if (rgn.getVt() != Region::Vert::VT_INVALID &&
      rgn.getWi() != Region::Width::WI_INVALID &&
      rgn.getHz() != Region::Horz::HZ_INVALID) {
    if (rgn.getVt() == Region::Vert::VT_VxH) {
      ss << "<" << (int)rgn.w << "," << (int)rgn.h << ">";
    } else {
      ss << "<" << (int)rgn.v << ";" << (int)rgn.w << "," << (int)rgn.h << ">";
    }
  } else if (rgn.getVt() != Region::Vert::VT_INVALID &&
             rgn.getWi() == Region::Width::WI_INVALID &&
             rgn.getHz() != Region::Horz::HZ_INVALID) {
    ss << "<" << (int)rgn.v << ";" << (int)rgn.h << ">";
  } else if (rgn.getVt() == Region::Vert::VT_INVALID &&
             rgn.getWi() == Region::Width::WI_INVALID &&
             rgn.getHz() != Region::Horz::HZ_INVALID) {
    ss << "<" << (int)rgn.h << ">";
  } else if (rgn == Region::INVALID) {
    ss << "Region::INVALID";
  } else {
    ss << "<0x" << std::hex << (int)rgn.bits << "?>";
  }
  return ss.str();
}

static inline std::string ToSyntax(const InstOpt &i) {
  switch (i) {
  case InstOpt::ACCWREN:
    return "AccWrEn";
  case InstOpt::ATOMIC:
    return "Atomic";
  case InstOpt::BREAKPOINT:
    return "Breakpoint";
  case InstOpt::COMPACTED:
    return "Compacted";
  case InstOpt::EOT:
    return "EOT";
  case InstOpt::NOCOMPACT:
    return "NoCompact";
  case InstOpt::NODDCHK:
    return "NoDDChk";
  case InstOpt::NODDCLR:
    return "NoDDClr";
  case InstOpt::NOPREEMPT:
    return "NoPreempt";
  case InstOpt::NOSRCDEPSET:
    return "NoSrcDepSet";
  case InstOpt::SWITCH:
    return "Switch";
  case InstOpt::SERIALIZE:
    return "Serialize";
  case InstOpt::EXBSO:
    return "ExBSO";
  case InstOpt::CPS:
    return "CPS";
  default:
    return MakeErrorString("InstOpt", (int)i);
  }
}

static inline void ToSyntaxNoBraces(std::ostream &os,
                                    const InstOptSet &instOpts) {
  static const InstOpt ALL_INST_OPTS[] {
    InstOpt::ACCWREN, InstOpt::ATOMIC, InstOpt::BREAKPOINT, InstOpt::COMPACTED,
        InstOpt::EOT, InstOpt::NOCOMPACT, InstOpt::NODDCHK, InstOpt::NODDCLR,
        InstOpt::NOPREEMPT, InstOpt::NOSRCDEPSET, InstOpt::SWITCH,
        InstOpt::SERIALIZE, InstOpt::EXBSO, InstOpt::CPS
  };

  bool first = true;
  for (size_t i = 0; i < sizeof(ALL_INST_OPTS) / sizeof(ALL_INST_OPTS[0]);
       i++) {
    if (instOpts.contains(ALL_INST_OPTS[i])) {
      if (first) {
        first = false;
      } else {
        os << ",";
      }
      os << ToSyntax(ALL_INST_OPTS[i]);
    }
  }
}

static inline std::string ToSyntax(const InstOptSet &instOpts) {
  std::stringstream ss;

  ss << "{";
  ToSyntaxNoBraces(ss, instOpts);
  ss << "}";

  return ss.str();
}

/////////////////////////////////////////////////////
// manually defined enumerations from BXML
template <typename T> T FromSyntax(const std::string& str);

std::string ToSyntax(MathFC sfc);
template <> MathFC FromSyntax<MathFC>(const std::string& str);

std::string ToSyntax(SFID sfid);
template <> SFID FromSyntax<SFID>(const std::string& str);

std::string ToSyntax(SyncFC sfc);
template <> SyncFC FromSyntax<SyncFC>(const std::string& str);

std::string ToSyntax(DpasFC sfc);
template <> DpasFC FromSyntax<DpasFC>(const std::string& str);

} // namespace iga

#endif // _IGA_FRONTEND_IRTOSTRING_HPP
